In this project, power-efficient architectures for the PAM-4 transmitter and receiver are developed in 28nm CMOS. It demonstrates a 112Gb/s PAM-4 end-to-end link under 10dB channel loss with 2.5pJ/b power efficiency. The XSR transceiver can be utilized as a chiplet and applied into heterogeneous integration for next-generation advanced package applications.
National Tsing Hua University (NTHU), established in 1911 and located in Hsinchu, Taiwan, is one of the top research universities in the country. NTHU offers a wide range of programs in fields such as engineering, science, management, and humanities. The university is known for its strong emphasis on innovation, research excellence, and fostering global perspectives. With a commitment to academic rigor and interdisciplinary collaboration, NTHU plays a key role in advancing knowledge and technological development, contributing to both Taiwan’s growth and the global academic community.
High mobility materials, process, stacked channels, and thermal circuit simulation; Ferroelectric X:HfO2 for Negative Capacitance and POC(Proof-of-Concept) Applications; Atomic layer technologies for
Hybrid CMOS Inverter Comprised of Thin Film Transistors with Hetero-channel for Monolithic 3D-ICs and Ultra-high Resolution Flat-Panel Displays Applications
Low Temperature Polycrystalline Silicon Oxide (LTPO) TFT Architecture with Memory-embedded in Pixel for High-resolution and Power-saving Near-eye VR/AR Displays Applications
A 112Gb/s PAM-4 Extra-Short-Reach Transceiver for Co-packaged Optics Application
Technology maturity:Experiment stage
Exhibiting purpose:Display of scientific results
Trading preferences:Negotiate by self
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